JP2002104801A - Method and apparatus of generating gaseous hydrogen, fuel cell using it, apparatus of spraying aluminum and apparatus of spraying zinc aluminum - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method capable of generating gaseous hydrogen at a low cost. SOLUTION: Gaseous hydrogen is generated by reacting an aluminum powder or the powder 7 which is a mixture of the aluminum powder with one or more kinds of metal powders which have lower ionization tendency than aluminum, with water 9 in the container 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for generating hydrogen gas, and to a fuel cell, an aluminum injector and a zinc aluminum injector using the same.

[0002]

2. Description of the Related Art A conventional hydrogen gas generating method and apparatus, and a method of generating hydrogen gas in a fuel cell, an aluminum injector, and a zinc aluminum injector using the same are as follows: (1) Hydrogen gas by electrolysis of water; And (2) a method of producing hydrogen gas by reforming a fuel such as natural gas.

[0003]

However, there are the following problems.

In the method (1), a large amount of electric power is required to obtain hydrogen gas, which is problematic in terms of cost and environment.

The method (2) requires a reformer,
There is a problem that energy for reforming is required, the efficiency of the equipment is reduced, the volume is increased, the equipment cost is increased, and the response is poor.

In the method (2), C is added together with hydrogen gas.
O gas is also included, and when used in a fuel cell, it causes deterioration and adversely affects the service life.

An object of the present invention is to provide a hydrogen gas generation method and apparatus capable of generating hydrogen gas at low cost.

Another object of the present invention is to provide a hydrogen gas generation method and apparatus capable of generating hydrogen gas at low cost by utilizing industrial waste.

Another object of the present invention is to provide a fuel cell which can generate power at low cost.

It is another object of the present invention to provide a fuel cell which can generate power at low cost by utilizing industrial waste.

Another object of the present invention is to provide an aluminum spraying apparatus capable of performing aluminum spraying at a reduced cost.

It is another object of the present invention to provide a zinc aluminum spraying apparatus capable of performing zinc aluminum spraying at a reduced cost.

[0013]

The hydrogen gas generating method according to the present invention comprises reacting aluminum powder or a powder obtained by mixing aluminum powder with at least one kind of metal powder having a smaller ionization tendency than aluminum with water or an aqueous solution. And generating hydrogen gas.

Such a method for generating hydrogen gas can generate hydrogen gas at low cost without requiring a large amount of electric power or a reformer. When a powder in which at least one of aluminum powder and metal powder having a smaller ionization tendency than aluminum is mixed is used, hydrogen gas can be more actively generated.

The hydrogen gas generating method according to the present invention is characterized in that the metal powder having a lower ionization tendency than aluminum is zinc powder.

In such a hydrogen gas generation method, aluminum powder and zinc powder are simply used as raw materials, and they are simply reacted with water or an aqueous solution. Hydrogen gas can be generated at a low cost. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

Further, the hydrogen gas generating method according to the present invention is characterized in that the metal powder having a lower ionization tendency than aluminum is iron powder.

According to such a hydrogen gas generation method, aluminum powder and iron powder are simply used as raw materials, and these are reacted with water or an aqueous solution. Hydrogen gas can be generated at a low cost. In particular, according to the mixed powder of aluminum powder and iron powder, hydrogen gas can be more actively generated.

Further, the hydrogen gas generating method according to the present invention is characterized in that the iron powder is blast waste.

The use of the blast particle waste material as described above makes it possible to actively generate hydrogen gas at low cost by utilizing industrial waste.

The hydrogen gas generating method according to the present invention is characterized in that the powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is dust waste material generated by zinc-aluminum spraying. Features.

In such a hydrogen gas generation method, dust waste generated by thermal spraying of zinc-aluminum is used as a raw material, and it is only necessary to react it with water or an aqueous solution. No need for reformer, etc.
Hydrogen gas can be actively generated at low cost.

In the method for generating hydrogen gas according to the present invention,
Water is shifted from PH7 to the acid or alkali side.

When the water is shifted from PH7 to the acid or alkali side as described above, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

The hydrogen gas generator according to the present invention is a reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder with at least one kind of metal powder having a smaller ionization tendency than aluminum with water. And a hydrogen gas recovery device for recovering the hydrogen gas generated from the reaction device.

The hydrogen gas generator having such a configuration can generate hydrogen gas at low cost without requiring a large amount of electric power or a reformer. When a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used, hydrogen gas can be more actively generated.

In the hydrogen gas generator according to the present invention,
The metal powder having a lower ionization tendency than aluminum is zinc powder.

[0028] In such a hydrogen gas generator, aluminum powder and zinc powder are simply used as raw materials, and these are merely required to react with water or an aqueous solution. Therefore, a large amount of electric power and a reformer are not required. Hydrogen gas can be generated at low cost. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

Further, in the hydrogen gas generator according to the present invention,
The metal powder having a lower ionization tendency than aluminum is iron powder.

In such a hydrogen gas generator, aluminum powder and iron powder are simply used as raw materials, and these are simply reacted with water or an aqueous solution. Therefore, a large amount of electric power, a reformer, and the like are not required. Hydrogen gas can be generated at low cost. In particular, according to the mixed powder of aluminum powder and iron powder, hydrogen gas can be more actively generated.

In the hydrogen gas generator according to the present invention,
The iron powder is a blast waste material.

The use of the blast waste material as described above makes it possible to actively generate hydrogen gas at low cost using industrial waste.

In the hydrogen gas generator according to the present invention,
A powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is dust waste material generated by zinc-aluminum spraying.

Such a hydrogen gas generator uses only dust waste generated by spraying zinc-aluminum as a raw material, and only reacts it with water or an aqueous solution. No need for reformer, etc.
Hydrogen gas can be actively generated at low cost.

In the hydrogen gas generator according to the present invention,
Water is shifted from PH7 to the acid or alkali side.

When the water is shifted from PH7 to the acid or alkali side as described above, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

In the hydrogen gas generator according to the present invention,
The reactor is provided with heating means for raising the temperature of water.

When the heating means for raising the temperature of water is provided in this manner, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be further increased.

[0039] The fuel cell according to the present invention comprises: a reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water; A hydrogen gas recovery device for recovering hydrogen gas generated from the reaction device, a fuel cell body, a hydrogen gas supply device for supplying the required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a required amount of water And a water supply device for supplying a required amount of air to the fuel cell body.

Such a fuel cell has a structure in which hydrogen gas is generated by reacting with water as a raw material using aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum. A fuel cell that can generate power at low cost can be obtained. When a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used, hydrogen gas can be more actively generated. In addition, hydrogen gas obtained by reacting powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented. it can.

In the fuel cell according to the present invention, the metal powder having a lower ionization tendency than aluminum is zinc powder.

In such a fuel cell, aluminum powder and zinc powder are simply used as raw materials, and they are merely required to react with water or an aqueous solution. Therefore, a large amount of electric power, a reformer, and the like are not required, and low cost is achieved. Can generate hydrogen gas. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

The fuel cell according to the present invention is characterized in that the metal powder having a lower ionization tendency than aluminum is iron powder.

In such a fuel cell, aluminum powder and iron powder are simply used as raw materials, and they are merely required to react with water or an aqueous solution. Therefore, a large amount of electric power, a reformer and the like are not required, and low cost is achieved. Can generate hydrogen gas. In particular, according to the mixed powder of aluminum powder and iron powder, hydrogen gas can be more actively generated.

The fuel cell according to the present invention is characterized in that the iron powder is blast waste material.

The use of the blast waste material as described above makes it possible to actively generate hydrogen gas at low cost by utilizing industrial waste.

Further, in the fuel cell according to the present invention, the powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is dust waste material generated by spraying zinc-aluminum. I do.

In such a fuel cell, dust waste generated by spraying zinc-aluminum is used as a raw material, and it is only necessary to react it with water or an aqueous solution. A hydrogen gas can be actively generated at low cost without the need for a vessel or the like.

In the fuel cell according to the present invention, the water is PH
7 is shifted to the acid or alkali side.

When the water is shifted from PH7 to the acid or alkali side as described above, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

The fuel cell according to the present invention is characterized in that the hot water obtained from the fuel cell body serves as a heating means for raising the temperature of the water in the reactor.

When the heating means for raising the temperature of water is provided in this manner, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be further increased. Since this heating means uses hot water obtained from the fuel cell body,
Hot water can be obtained without cost.

The aluminum spraying apparatus according to the present invention comprises: a spraying unit for spraying at least aluminum with a spray gun on an object to be sprayed in a spraying powder collection chamber; and a dust collection of aluminum-based spraying powder from the spraying powder collection chamber. Collecting device, a reactor for generating hydrogen gas by reacting aluminum dust mainly collected by the dust collecting device with water, and a hydrogen collecting hydrogen gas generated from the reactor. A gas recovery device, a fuel cell body, a hydrogen gas supply device for supplying a required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a water supply device for supplying a required amount of water to the fuel cell body. An air supply device for supplying a required amount of air to the fuel cell body, and a power supply device for supplying electric power generated from the fuel cell body to the thermal spraying device.

In such an aluminum spraying apparatus, the hydrogen gas generator generates hydrogen gas from the sprayed powder mainly composed of aluminum recovered from the sprayed powder recovery chamber, and operates the fuel cell body using the hydrogen gas as the raw material. Since the electric power obtained from the fuel cell main body is used as a power source for the thermal spraying device, the aluminum thermal spraying can be performed at a reduced cost. Further, according to such a configuration, it is possible to save energy of the aluminum spraying apparatus and to construct an environmentally friendly system. Further, hydrogen gas obtained by reacting aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, the aluminum spraying apparatus according to the present invention comprises a spraying section for spraying at least aluminum with a spray gun on an object to be sprayed in a spraying powder collection chamber, and a collection of spraying powder mainly composed of aluminum from the spraying powder collection chamber. A dust collector that performs dust, and a reactor that generates hydrogen gas by reacting a mixture of iron dust as a blast particle waste with dust waste mainly composed of aluminum collected by the dust collector and reacting with water. A hydrogen gas recovery device that recovers hydrogen gas generated from the reaction device, a fuel cell body, a hydrogen gas supply device that supplies a required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, A water supply device that supplies the required amount to the fuel cell main unit, an air supply device that supplies the required amount of air to the fuel cell main unit, and a thermal spray device unit that supplies the electric power generated from the fuel cell main unit Characterized in that comprising the supply power feeding device.

In such an aluminum spraying apparatus, the hydrogen gas generator generates hydrogen gas from a mixture of dusty waste mainly composed of aluminum and iron powder as blasting grain waste recovered from the sprayed powder recovery chamber as a raw material. ,
Since the fuel cell main body is operated using the hydrogen gas as a raw material, and the electric power obtained from the fuel cell main body is used as a power supply for the thermal spraying device, aluminum spraying can be performed at a reduced cost. Further, in this apparatus, hydrogen gas can be actively generated at low cost due to the presence of iron powder. In addition, by using waste materials, it is possible to save energy of the aluminum spraying apparatus and to construct an environmentally friendly system. Hydrogen gas obtained by reacting aluminum powder with water is CO 2
Since no gas is contained, deterioration of the fuel cell body can be prevented.

The aluminum spraying apparatus according to the present invention is characterized in that the water in the reactor is shifted from PH7 to the acid or alkali side.

When the water in the reactor is shifted from PH7 to the acid or alkali side as described above, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

The aluminum spraying apparatus according to the present invention is characterized in that the hot water obtained from the fuel cell body serves as a heating means for raising the temperature of the water in the reactor.

When the heating means for raising the temperature of water is provided in the reactor as described above, the generation rate of hydrogen gas becomes higher, and the generation efficiency of hydrogen gas can be further increased. Since this heating means uses hot water obtained from the fuel cell main body, hot water can be obtained at no cost.

Further, the zinc aluminum spraying apparatus according to the present invention comprises a spraying unit for spraying zinc aluminum on a sprayed object in a spraying powder collection chamber with a spray gun, and a spraying powder mainly composed of zinc aluminum from the spraying powder collection chamber. A dust collector for collecting dust, a reactor for generating hydrogen gas by reacting dust waste mainly composed of zinc aluminum collected by the dust collector with water, and a hydrogen gas generated from the reactor. A hydrogen gas recovery device for recovering water, a fuel cell body, a hydrogen gas supply device for supplying a required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a water supply for supplying a required amount of water to the fuel cell body. A fuel supply device that supplies a required amount of air to the fuel cell main body; and a power supply device that supplies power generated from the fuel cell main body to the thermal spraying device. .

In such a zinc aluminum spraying apparatus, the hydrogen gas generator generates hydrogen gas using the sprayed zinc aluminum powder recovered from the sprayed powder recovery chamber as a raw material, and operates the fuel cell body using the hydrogen gas as a raw material. Since the electric power obtained from the fuel cell main body is used as a power supply for the thermal spraying device, zinc aluminum spraying can be performed at a reduced cost. In particular, according to the mixed powder of aluminum and zinc, hydrogen gas can be more actively generated. Further, according to such a configuration, energy saving of the zinc aluminum spraying apparatus can be achieved, and an environment-friendly system can be constructed. Further, hydrogen gas obtained by reacting zinc aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, the zinc aluminum spraying apparatus according to the present invention comprises a spraying apparatus section for spraying at least zinc aluminum on a material to be sprayed with a spray gun in a spraying powder collecting chamber, and a spraying mainly comprising zinc aluminum from the spraying powder collecting chamber. A dust collector that collects powder, and a mixture of dust dust mainly composed of zinc aluminum collected by the dust collector and iron powder as blast grain waste material is reacted with water to generate hydrogen gas. A reaction device, a hydrogen gas recovery device for recovering hydrogen gas generated from the reaction device, a fuel cell body, and a hydrogen gas supply device for supplying a required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body And a water supply device for supplying a required amount of water to the fuel cell body, an air supply device for supplying a required amount of air to the fuel cell body, and power generation from the fuel cell body. Characterized in that it consists of force and thermal spraying device unit to supply the power supply device.

In such a zinc aluminum spraying apparatus, the hydrogen gas generator uses a mixture of dust waste mainly composed of zinc aluminum collected from the sprayed powder recovery chamber and iron powder as blasting particle waste to produce hydrogen gas. Since the generated hydrogen gas is used as a raw material to operate the fuel cell main body and the electric power obtained from the fuel cell main body is used as a power supply for the thermal spraying device, it is possible to reduce the cost and perform zinc aluminum spraying. it can. Further, in this apparatus, hydrogen gas can be actively generated at low cost due to the presence of iron powder. In addition, by using waste materials, energy saving of the zinc aluminum spraying apparatus can be achieved, and an environmentally friendly system can be constructed. Further, hydrogen gas obtained by reacting zinc aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, the zinc aluminum spraying apparatus according to the present invention is characterized in that the water in the reactor is shifted from PH7 to the acid or alkali side.

As described above, when the water in the reactor is shifted from PH7 to the acid or alkali side, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

The zinc aluminum spraying apparatus according to the present invention is characterized in that the hot water obtained from the fuel cell body serves as a heating means for raising the temperature of the water in the reactor.

When the heating means for raising the temperature of water is provided in the reactor as described above, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be further increased. Since this heating means uses hot water obtained from the fuel cell main body, hot water can be obtained at no cost.

[0069]

FIG. 1 is a schematic diagram showing an embodiment of an aluminum spraying apparatus according to the present invention including a hydrogen gas generating method and apparatus according to the present invention, a fuel cell using the same, and a zinc aluminum spraying apparatus. It is a system diagram of a structure.

The aluminum spraying apparatus of the present embodiment uses a spraying power source 3 for a sprayed object 2 arranged in a sprayed powder recovery chamber 1.
And a thermal spraying unit 5 for performing thermal spraying mainly of aluminum by the thermal spraying gun 4 while supplying power from the apparatus. The thermal spraying device section 5 includes a dust collecting device 6 that collects thermal spray powder mainly composed of aluminum from inside the thermal spray powder collecting chamber 1.

The dust waste 7 mainly composed of aluminum collected by the dust collector 6 is discharged into the container 8 by water 9.
And a hydrogen gas recovery device 11 for recovering the hydrogen gas generated from the reaction device 10 as a raw material of a hydrogen gas generation device 12. .

The fuel cell main body 13 is disposed near the hydrogen gas recovery device 11. The fuel cell main body 13 supplies a required amount of hydrogen gas in the hydrogen gas recovery device 11, a hydrogen gas supply device 14, a water supply device 15 for supplying a required amount of water, and a required amount of air. The fuel cell 17 is configured by being connected to the air supply device 16. This fuel cell 17 is provided on its output side with a DC / AC converter 18 for converting DC output from the fuel cell main body 13 into AC.

The AC power output from the DC / AC converter 18 can be supplied to the thermal spraying power supply 3 by a power supply device 19 including a line, or to another electric load 20.

The hot water obtained from the fuel cell body 13 is used as a heating means for raising the temperature of the water 9 in the reactor 10 or supplied to the heat load 21.

Next, the operation of the aluminum spraying apparatus having such a configuration, and the operation of the hydrogen gas generation method and apparatus and the fuel cell will be described.

The thermal spray gun 4 of the thermal spraying unit 5 performs thermal spraying mainly on aluminum to the thermal sprayed object 2, and
Is coated with a thermal spray coating 22 to perform a rustproofing treatment.

At this time, the sprayed powder mainly composed of aluminum that has not adhered to the surface of the object 2 is sprayed by the dust collector 6.
To collect dust waste material 7 mainly composed of aluminum.

The collected dust waste material 7 mainly composed of aluminum is placed in a container 8 of a reactor 10 provided in the hydrogen gas generator 12 and reacted with water 9 to generate hydrogen gas. The obtained hydrogen gas is recovered by the hydrogen gas recovery device 11.

According to the operation of the fuel cell 17, the required amount of hydrogen gas from the hydrogen gas supply device 14, the required amount of water from the water supply device 15, and the required amount of water from the air supply device 16 are supplied to the fuel cell body 13. The required amount is supplied to generate electricity. The fuel cell 17 generates DC power and hot water by a reaction.
The generated DC power is converted into AC power by the DC / AC converter 18 and supplied to the thermal spraying power supply 3 by the power supply device 19 or to another electric load 20. The generated hot water is used as a heating means for raising the temperature of the water 9 of the reactor 10 or supplied to the heat load 21 for use. The generated power and hot water can be used for other purposes.

From the results of the analysis of the reaction gas and the results of analysis using X-ray diffraction of the powder before and after the reaction with the water 9, the generation of hydrogen gas was determined by the reaction of aluminum in the dust waste material 7 with the water 9. It is thought that hydrogen gas is generated in the process of becoming aluminum hydroxide. The reaction formula is 2Al + 6H ₂ O → 2Al (OH) ₃ + 3H ₂ ↑.

The dust after thermal spraying is relatively fine particles (several μm to several tens μm) and has extremely high reactivity.

According to experiments, hydrogen gas is generated only by aluminum powder, but hydrogen gas can be more actively generated by using zinc aluminum powder, for example, dust waste of thermal spray powder mainly composed of zinc aluminum. It was revealed. The reason is considered to be that aluminum has a higher ionization tendency than zinc and causes a reaction more efficiently than aluminum alone.

For the same reason, blast waste material composed of iron powder used and consumed in the blast treatment of the material 2 to be sprayed before thermal spraying is collected, and the blast waste material is supplied to the dust collecting device 6 by the blast waste material supply device 23. Then, the waste material 7 is mixed with the dust waste material 7, and the mixed waste material is put into the water 9 in the container 8 to increase the hydrogen gas generation efficiency.

The water 9 may be groundwater, tap water, or the like. However, when the water 9 is shifted from the pH 7 to the acid or alkali side and the water 9 is used, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas is improved. be able to.

The dust waste material 7 after generating the hydrogen gas in this way precipitates in water, so that the post-treatment becomes easy.

The hydrogen gas obtained by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water does not contain CO gas. 13 can be prevented from deteriorating.

When hydrogen powder is generated by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with hydrogen to generate hydrogen gas, energy efficiency is improved.

Further, by recycling waste materials and using the power generated by the fuel cell and hot water in a casing rust prevention plant, etc., it is possible to reduce the energy required for rust prevention work and to provide an environmentally friendly system. Can be built.

[0089]

According to the hydrogen gas generation method of the present invention, a hydrogen gas is produced by reacting aluminum powder or a powder obtained by mixing at least one of aluminum powder and a metal powder having a lower ionization tendency than aluminum with water or an aqueous solution. , Without the need for large amounts of power or reformers, etc.
Hydrogen gas can be generated at low cost. When a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used, hydrogen gas can be more actively generated.

When zinc powder is used as the metal powder having a smaller ionization tendency than aluminum in the hydrogen gas generation method according to the present invention, hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. Can be done. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

In the hydrogen gas generation method according to the present invention, when iron powder is used as the metal powder having a smaller ionization tendency than aluminum, hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. Can be done. In particular, according to the mixed powder of aluminum powder and iron powder,
Hydrogen gas can be more actively generated.

Further, in the hydrogen gas generation method according to the present invention, when blast particle waste material is used as iron powder, hydrogen gas can be actively generated at low cost using industrial waste.

Further, in the hydrogen gas generation method according to the present invention, when dust dust generated by zinc-aluminum spraying is used as a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum, By using industrial waste, a large amount of electric power and a reformer are not required, and hydrogen gas can be actively generated at low cost.

In the hydrogen gas generation method according to the present invention, when water is shifted from PH7 to the acid or alkali side, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

The hydrogen gas generator according to the present invention is a reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder with at least one kind of metal powder having a smaller ionization tendency than aluminum with water. And a hydrogen gas recovery device that recovers hydrogen gas generated from the reaction device,
Hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. When a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used, hydrogen gas can be more actively generated.

In the hydrogen gas generator according to the present invention, when zinc powder is used as the metal powder having a smaller ionization tendency than aluminum, hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. Can be done. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

Further, in the hydrogen gas generator according to the present invention, when iron powder is used as the metal powder having a smaller ionization tendency than aluminum, hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. Can be done. In particular, according to the mixed powder of aluminum powder and iron powder,
Hydrogen gas can be more actively generated.

Further, in the hydrogen gas generator according to the present invention,
When blasting waste material is used as iron powder, hydrogen gas can be actively generated at low cost using industrial waste.

Further, in the hydrogen gas generator according to the present invention, when dust dust generated by zinc-aluminum spraying is used as a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum, By using industrial waste, a large amount of electric power and a reformer are not required, and hydrogen gas can be actively generated at low cost.

In the hydrogen gas generator according to the present invention, when water is shifted from PH7 to the acid or alkali side, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

In the hydrogen gas generating apparatus according to the present invention, when a heating means for raising the temperature of water is provided in the reactor, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be further increased. .

The fuel cell according to the present invention comprises: a reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water; A hydrogen gas recovery device for recovering hydrogen gas generated from the reaction device, a fuel cell body, a hydrogen gas supply device for supplying the required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a required amount of water Having a water supply device for supplying fuel to the fuel cell body and an air supply device for supplying a required amount of air to the fuel cell body, a fuel cell capable of generating power at low cost is obtained. be able to.
When a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used, hydrogen gas can be more actively generated. In addition, hydrogen gas obtained by reacting powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented. it can.

In the fuel cell according to the present invention, when zinc powder is used as the metal powder having a lower ionization tendency than aluminum, hydrogen gas can be generated at low cost without requiring a large amount of electric power or a reformer. Can be. In particular, according to the mixed powder of the aluminum powder and the zinc powder, the hydrogen gas can be more actively generated.

In the fuel cell according to the present invention, when iron powder is used as the metal powder having a lower ionization tendency than aluminum, it is possible to generate hydrogen gas at low cost without requiring a large amount of electric power or a reformer. Can be. In particular, according to the mixed powder of aluminum powder and iron powder, hydrogen gas can be more actively generated.

Further, in the fuel cell according to the present invention, when blast granulated waste material is used as iron powder, industrial waste can be utilized.
Hydrogen gas can be actively generated at low cost.

Further, in the fuel cell according to the present invention, when the dust waste material generated by the spraying of zinc-aluminum is used as the powder obtained by mixing the aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum, the industrial waste By using the material, hydrogen gas can be actively generated at low cost without requiring a large amount of electric power or a reformer.

In the fuel cell according to the present invention, the water
When the shift is made to the acid or alkali side, the generation speed of the hydrogen gas is increased, and the generation efficiency of the hydrogen gas can be increased.

Further, in the fuel cell according to the present invention, when the hot water obtained from the fuel cell body is used as a heating means for raising the temperature of the water in the reactor, the rate of hydrogen gas generation is increased, and the efficiency of hydrogen gas generation is increased. Can be further increased. Since this heating means uses hot water obtained from the fuel cell main body, hot water can be obtained at no cost.

In the aluminum spraying apparatus according to the present invention,
The hydrogen gas generator generates hydrogen gas using the spray powder mainly composed of aluminum recovered from the spray powder recovery chamber as a raw material, and operates the fuel cell main body using the hydrogen gas as a raw material, thereby obtaining the electric power obtained from the fuel cell main body. Is used as a power source for the thermal spraying device, so that aluminum spraying can be performed at a reduced cost. Further, according to such a configuration, it is possible to save energy of the aluminum spraying apparatus and to construct an environmentally friendly system. Further, hydrogen gas obtained by reacting aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, in the aluminum spraying apparatus according to the present invention, the hydrogen gas generator uses the hydrogen gas as a raw material obtained by mixing iron dust as blast particle waste with aluminum-based dust waste collected from the sprayed powder recovery chamber. Since the generated hydrogen gas is used as a raw material to operate the fuel cell main body and the electric power obtained from the fuel cell main body is used as a power supply for the thermal spraying device, aluminum spray can be performed at a reduced cost. . Further, in this apparatus, hydrogen gas can be actively generated at low cost due to the presence of iron powder. In addition, by using waste materials, it is possible to save energy of the aluminum spraying apparatus and to construct an environmentally friendly system.
Further, hydrogen gas obtained by reacting aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

In the aluminum spraying apparatus according to the present invention, when the water in the reactor is shifted from PH7 to the acid or alkali side, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased.

Further, in the aluminum spraying apparatus according to the present invention, since the hot water obtained from the fuel cell body is used as a heating means for raising the temperature of the water in the reactor, the generation rate of hydrogen gas is further increased, and Efficiency can be further improved. Since this heating means uses hot water obtained from the fuel cell main body, hot water can be obtained at no cost.

Further, in the zinc aluminum spraying apparatus according to the present invention, the hydrogen gas generator generates hydrogen gas using the sprayed zinc aluminum powder recovered from the sprayed powder recovery chamber as a raw material, and uses the hydrogen gas as a raw material to form the fuel cell body. Since the power is operated and the electric power obtained from the fuel cell main body is used as the power supply of the thermal spraying device, the zinc aluminum thermal spraying can be performed at a reduced cost. Particularly, according to the mixed powder of aluminum and zinc, hydrogen gas can be more actively generated. Further, according to such a configuration, energy saving of the zinc aluminum spraying apparatus can be achieved, and an environmentally friendly system can be constructed. Further, hydrogen gas obtained by reacting zinc aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, in the zinc aluminum spraying apparatus according to the present invention, the hydrogen gas generator uses a mixture of dust dust mainly composed of zinc aluminum recovered from the sprayed powder recovery chamber and iron powder as blasting particle waste as a raw material. A gas is generated, and the fuel cell body is operated using the hydrogen gas as a raw material, and the power obtained from the fuel cell body is used as a power source for the thermal spraying device. be able to. Also,
In this device, hydrogen gas can be actively generated at low cost due to the presence of iron powder. In addition, by using waste materials, energy saving of the zinc aluminum spraying apparatus can be achieved, and an environmentally friendly system can be constructed. Further, hydrogen gas obtained by reacting zinc aluminum powder with water does not contain CO gas, so that deterioration of the fuel cell body can be prevented.

Further, in the zinc aluminum spraying apparatus according to the present invention, when the water in the reactor is shifted from PH7 to the acid or alkali side, the generation rate of hydrogen gas is increased, and the generation efficiency of hydrogen gas can be increased. .

In the zinc aluminum spraying apparatus according to the present invention, when the hot water obtained from the fuel cell body is used as a heating means for raising the temperature of the water in the reactor, the generation rate of hydrogen gas is increased, and Generation efficiency can be further increased. Since this heating means uses hot water obtained from the fuel cell main body, hot water can be obtained at no cost.

[Brief description of the drawings]

FIG. 1 is a system diagram of a schematic configuration showing an example of an embodiment of a zinc aluminum spraying apparatus according to the present invention including a hydrogen gas generating method and apparatus according to the present invention, a fuel cell using the same, and an aluminum spraying apparatus. .

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 sprayed powder collection chamber 2 sprayed object 3 spraying power supply 4 spray gun 5 spraying device section 6 dust collector 7 dust waste material 8 container 9 water 10 reactor 11 hydrogen gas recovery device 12 hydrogen gas generator 13 fuel cell body 14 hydrogen gas Supply device 15 Water supply device 16 Air supply device 17 Fuel cell 18 DC / DC converter 19 Power supply device 20 Electric load 21 Thermal load 22 Thermal spray coating 23 Blast waste material supply device

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4K031 AA08 AB02 AB11 CB08 CB31 CB39 5H027 AA02 BA08 BA13 CC06 DD06 MM27

Claims (28)

[Claims] 1. A hydrogen gas generation method comprising reacting aluminum powder or a powder obtained by mixing at least one of aluminum powder and a metal powder having a lower ionization tendency than aluminum with water to generate hydrogen gas. . 2. The hydrogen gas generation method according to claim 1, wherein the metal powder having a lower ionization tendency than aluminum is zinc powder. 3. The metal powder having a lower ionization tendency than aluminum is iron powder.
The method for generating hydrogen gas according to item 1. 4. The hydrogen gas generation method according to claim 3, wherein the iron powder is a blast waste material. 5. A dust waste material produced by spraying zinc-aluminum, wherein a powder obtained by mixing the aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used. Hydrogen gas generation method. 6. The method according to claim 1, wherein said water is shifted from PH7 to an acid or alkali side.
The method for generating hydrogen gas according to 3, 4, or 5. 7. A reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a lower ionization tendency than aluminum with water, and hydrogen generated from the reactor. A hydrogen gas recovery device for recovering the hydrogen gas. 8. The hydrogen gas generator according to claim 7, wherein the metal powder having a lower ionization tendency than aluminum is zinc powder. 9. The metal powder having a lower ionization tendency than aluminum is iron powder.
A hydrogen gas generator according to item 1. 10. The hydrogen gas generator according to claim 9, wherein the iron powder is blast waste material. 11. The dust waste material produced by zinc-aluminum thermal spraying, wherein the powder obtained by mixing the aluminum powder and at least one kind of metal powder having a lower ionization tendency than aluminum is used. Hydrogen gas generator. 12. The method according to claim 7, wherein the water is shifted from PH7 to the acid or alkali side.
12. The hydrogen gas generator according to 9, 10, or 11. 13. The hydrogen gas generator according to claim 7, wherein the reactor is provided with heating means for raising the temperature of the water. 14. A reactor for generating hydrogen gas by reacting aluminum powder or a powder obtained by mixing aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum with water, and a hydrogen gas generated from the reactor. A hydrogen gas recovery device for recovering the hydrogen gas, a fuel cell body, a hydrogen gas supply device for supplying the required amount of the hydrogen gas in the hydrogen gas recovery device to the fuel cell body, A fuel cell, comprising: a water supply device for supplying a fuel cell body; and an air supply device for supplying a required amount of air to the fuel cell body. 15. The fuel cell according to claim 14, wherein the metal powder having a lower ionization tendency than aluminum is zinc powder. 16. The fuel cell according to claim 14, wherein the metal powder having a lower ionization tendency than aluminum is iron powder. 17. The fuel cell according to claim 16, wherein the iron powder is blast waste material. 18. A dust waste material produced by spraying zinc-aluminum, wherein a powder obtained by mixing the aluminum powder and at least one kind of metal powder having a smaller ionization tendency than aluminum is used.
A fuel cell according to claim 1. 19. The method according to claim 14, wherein said water is shifted from PH7 to an acid or alkali side.
19. The fuel cell according to 5, 16, 17 or 18. 20. The apparatus according to claim 14, wherein hot water obtained from said fuel cell main body serves as a heating means for raising the temperature of said water in said reactor.
20. The fuel cell according to 7, 18, or 19. 21. A spraying device for spraying at least aluminum with a spray gun on an object to be sprayed in a sprayed powder collecting chamber, and a dust collecting device for collecting the sprayed powder mainly composed of aluminum from the sprayed powder collecting chamber. A reaction device that generates hydrogen gas by reacting the aluminum-based dust waste collected by the dust collection device with water, and a hydrogen gas recovery device that recovers the hydrogen gas generated from the reaction device A fuel cell body, a hydrogen gas supply device for supplying the required amount of the hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a water supply device for supplying a required amount of water to the fuel cell body. An air supply device for supplying a required amount of air to the fuel cell body, and a power supply device for supplying power generated from the fuel cell body to the thermal spraying device. Aluminum spray equipment. 22. A spraying device for spraying at least aluminum with a spray gun on an object to be sprayed in a sprayed powder collecting chamber, and a dust collecting device for collecting the sprayed powder mainly composed of aluminum from the sprayed powder collecting chamber. And a reaction device that generates hydrogen gas by reacting a mixture of iron dust as a blasting particle waste material with the aluminum-based dust waste material collected by the dust collection device to generate hydrogen gas; and A hydrogen gas recovery device that recovers the generated hydrogen gas, a fuel cell body, a hydrogen gas supply device that supplies the required amount of the hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a required amount of water A water supply device for supplying the fuel cell body with a required amount of air, an air supply device for supplying a required amount of air to the fuel cell body, and the thermal spraying device for generating electric power from the fuel cell body. And a power supply device for supplying to the part. 23. The aluminum spraying apparatus according to claim 21, wherein the water is shifted from PH7 to an acid or alkali side. 24. The heating apparatus according to claim 121, wherein the hot water obtained from the fuel cell body serves as heating means for raising the temperature of the water in the reactor.
4. The aluminum spraying apparatus according to 3. 25. A spraying device for spraying zinc aluminum onto a sprayed object with a spray gun in a sprayed powder collection chamber, and a dust collector for collecting the sprayed powder mainly composed of zinc aluminum from the sprayed powder collection chamber. An apparatus, a reactor for generating hydrogen gas by reacting dust waste mainly composed of zinc aluminum collected by the dust collector with water, and hydrogen gas for recovering the hydrogen gas generated from the reactor A recovery device, a fuel cell body, a hydrogen gas supply device for supplying the required amount of hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and a water supply for supplying a required amount of water to the fuel cell body. Device, an air supply device that supplies a required amount of air to the fuel cell main body, and a power supply device that supplies power generated from the fuel cell main body to the thermal spraying device unit. Zinc aluminum spraying equipment. 26. A spraying device for spraying zinc aluminum onto a sprayed object with a spray gun in a sprayed powder collecting chamber, and dust collecting for collecting the sprayed powder mainly composed of zinc aluminum from the sprayed powder collecting chamber. A reaction apparatus for generating hydrogen gas by reacting a mixture of dust waste mainly composed of zinc aluminum collected by the dust collection apparatus and iron powder as blast particle waste with water, and the reaction; A hydrogen gas recovery device that recovers the hydrogen gas generated from the device, a fuel cell body, a hydrogen gas supply device that supplies the required amount of the hydrogen gas in the hydrogen gas recovery device to the fuel cell body, and water A water supply device for supplying a required amount of fuel to the fuel cell body, an air supply device for supplying a required amount of air to the fuel cell body, and a thermal spray device for supplying electric power generated from the fuel cell body. A zinc aluminum thermal spraying device, comprising: a power supply device for supplying to the mounting portion. 27. The zinc aluminum spraying apparatus according to claim 25, wherein the water is shifted from PH7 to an acid or alkali side. 28. The heating device according to claim 25, wherein the hot water obtained from the fuel cell body serves as heating means for raising the temperature of the water in the reactor.
2. A zinc aluminum spraying apparatus according to item 1.